河北农业大学现代科技学院
摘要
本文首先介绍了谐波分析算法的理论依据。在广泛使用的FFT算法的基础上,对谐波检测的对象进行数据分析,为系统的设计提供参考数据。本文完成了系统硬件电路的设计和仿真。硬件电路以MCS一51单片机为核心,配以适当的外围接口电路来完成各项功能。主要包括A/D采样电路、数据处理电路(单片机8gggg
)、D/A转换器。软件设计以快速傅立叶变换(FFT)为主要部分,通过对所采集的数据来测量电参数。进行了相关软件算法的设计,完成每周期多功能锤子256点的离散采样,由单片机进行基2一FFT运算,运算结果可用于63次以下的谐波分析。系统程序采用模块化的设计思想,在软件设计中对每个模块都完成了框图设计和相关的编码设计。 关键字:单片机;谐波检测;FFT
Abstract
This paper first introduced the harmonic analysis algorithm theory basis. In the extensive use of FFT algorithm, on the basis of the object of harmonic detection of data analysis, for the design of the system with reference data. We completed a hardware circuit and the design of system simulation. Hardware circuit to 51 single-chip microcomputer is a MCS, match with appropriate interface circuit to the periphery of the complete all the function. Mainly includes A/D sampling circuit, data processing circuits (SCM), D/A converter. The software design with fast Fourier transform (FFT) as the main part, from all the data to measure electric parameters. Some software algorithm design, complete each cycle of discrete sampling 256 points, by MCU and 2 a FFT calculation, the operation result can be used for 63 times of the harmonic analysis. System programming the modularized design thought, in the software design of each module completed the block diagram design and relevant code design.
无水炮泥
Key word: single chip microcomputer;the harmonic detection; FFT
目 录小家电控制板
硬质合金模具1前言 1
1.1目的意义 1
1.2 谐波检测的现状 1
1.3 本文研究内容 2
1.3.1 谐波检测的仿真设计思路 2
1.3.2课题的主要任务 2
2系统整体设计 2
2.1硬件系统设计 2
2.1.1数据采集模块 3
2.1.2 D/A转换器与51的接口模块 4
2.1.3显示模块 6
2.1.4系统整体结构 7
胎盘提取液2.2系统软件设计 7
2.2.1数据采集软件模块 9
2.2.2算法实现 9
2.2.3.开方在单片机中的原理 10
3.系统仿真 12
4.结论 14
参考文献 15
附录: 16
1前言
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